Modeling and optimization of lead and cobalt biosorption from water with Rafsanjan pistachio shell, using experiment based models of ANN and GP, and the grey wolf optimizer

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@Article{MORADI:2020:CILS,

• author = "Peyman Moradi and Sajad Hayati and Tahereh Ghahrizadeh",
• title = "Modeling and optimization of lead and cobalt biosorption from water with Rafsanjan pistachio shell, using experiment based models of {ANN} and {GP}, and the grey wolf optimizer",
• journal = "Chemometrics and Intelligent Laboratory Systems",
• volume = "202",
• pages = "104041",
• year = "2020",
• ISSN = "0169-7439",
• DOI = "doi:10.1016/j.chemolab.2020.104041",
• URL = "http://www.sciencedirect.com/science/article/pii/S0169743919304435",
• keywords = "genetic algorithms, genetic programming, Biosorption, Heavy metal, Rafsanjan pistachio shell (RPS), Feed-forward neural network (FFNN), Genetic programming (GP), Grey wolf optimization (GWO)",
• abstract = "The biosorption of lead and cobalt from an aqueous solution is studied using Rafsanjan pistachio shell (RPS) as a biosorbent. The amount of removed metal depends on four factors including pH of the aqueous solution, initial concentration of metal (C0), biosorbent dosage (DB), and temperature (T). An efficient set of experiments is obtained in a lab-scale batch study. Feed-forward neural network (FFNN) and genetic programming (GP) methods are used for process modeling. The FFNN formula is further improved using the grey wolf optimization (GWO) algorithm and it converges to the test observations with regression index (R2) of 0.9932 and 0.9908 for Pb(II) and Co(II). The GP formula also gives an R2 value of 0.9657 and 0.9518 for Pb(II) and Co(II) adsorptions respectively. Using the grey wolf optimization (GWO) method proves t...",

}

Genetic Programming entries for Peyman Moradi Sajad Hayati Tahereh Ghahrizadeh

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